laconicd-deprecated/x/evm/simulation/operations.go
Adu 4ea9b6dc6d
imp, ci: address pending issues from EVM simulation (#1063)
* add note

fix note

* add TestAppStateFn TestRandomAccounts

* marshal int slice to json

* add paramschange for enableCreate and enableCall

* AppStateFn -> StateFn

* add TestDecodeStore

* update github actions to run evm simulation

* add TestParamChanges

* add TestRandomizedGenState

* use go install for runsim

* resolve conflict

* use random gasCap to estimate gas

* use estimateGas to calculate max transferableAmount

* update godoc

* TestAppStateFn -> TestStateFn

* Update x/evm/simulation/genesis.go

* comment

Co-authored-by: Federico Kunze Küllmer <31522760+fedekunze@users.noreply.github.com>
Co-authored-by: Federico Kunze Küllmer <federico.kunze94@gmail.com>
2022-05-02 15:27:43 +02:00

301 lines
11 KiB
Go

package simulation
import (
"encoding/json"
"fmt"
"math/big"
"math/rand"
"time"
"github.com/cosmos/cosmos-sdk/baseapp"
"github.com/cosmos/cosmos-sdk/codec"
codectypes "github.com/cosmos/cosmos-sdk/codec/types"
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/cosmos/cosmos-sdk/types/module"
simtypes "github.com/cosmos/cosmos-sdk/types/simulation"
sdktx "github.com/cosmos/cosmos-sdk/types/tx"
"github.com/cosmos/cosmos-sdk/x/auth/tx"
"github.com/cosmos/cosmos-sdk/x/simulation"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/common/hexutil"
ethtypes "github.com/ethereum/go-ethereum/core/types"
"github.com/cosmos/cosmos-sdk/client"
cryptotypes "github.com/cosmos/cosmos-sdk/crypto/types"
"github.com/cosmos/cosmos-sdk/x/auth/signing"
"github.com/ethereum/go-ethereum/crypto"
"github.com/tharsis/ethermint/encoding"
"github.com/tharsis/ethermint/tests"
"github.com/tharsis/ethermint/x/evm/keeper"
"github.com/tharsis/ethermint/x/evm/types"
)
const (
/* #nosec */
OpWeightMsgEthSimpleTransfer = "op_weight_msg_eth_simple_transfer"
/* #nosec */
OpWeightMsgEthCreateContract = "op_weight_msg_eth_create_contract"
/* #nosec */
OpWeightMsgEthCallContract = "op_weight_msg_eth_call_contract"
)
const (
WeightMsgEthSimpleTransfer = 50
WeightMsgEthCreateContract = 50
)
var ErrNoEnoughBalance = fmt.Errorf("no enough balance")
var maxWaitSeconds = 10
type simulateContext struct {
context sdk.Context
bapp *baseapp.BaseApp
rand *rand.Rand
keeper *keeper.Keeper
}
// WeightedOperations generate Two kinds of operations: SimulateEthSimpleTransfer, SimulateEthCreateContract.
// Contract call operations work as the future operations of SimulateEthCreateContract.
func WeightedOperations(
appParams simtypes.AppParams, cdc codec.JSONCodec, ak types.AccountKeeper, k *keeper.Keeper,
) simulation.WeightedOperations {
var (
weightMsgEthSimpleTransfer int
weightMsgEthCreateContract int
)
appParams.GetOrGenerate(cdc, OpWeightMsgEthSimpleTransfer, &weightMsgEthSimpleTransfer, nil,
func(_ *rand.Rand) {
weightMsgEthSimpleTransfer = WeightMsgEthSimpleTransfer
},
)
appParams.GetOrGenerate(cdc, OpWeightMsgEthCreateContract, &weightMsgEthCreateContract, nil,
func(_ *rand.Rand) {
weightMsgEthCreateContract = WeightMsgEthCreateContract
},
)
return simulation.WeightedOperations{
simulation.NewWeightedOperation(
weightMsgEthSimpleTransfer,
SimulateEthSimpleTransfer(ak, k),
),
simulation.NewWeightedOperation(
weightMsgEthCreateContract,
SimulateEthCreateContract(ak, k),
),
}
}
// SimulateEthSimpleTransfer simulate simple eth account transferring gas token.
// It randomly choose sender, recipient and transferable amount.
// Other tx details like nonce, gasprice, gaslimit are calculated to get valid value.
func SimulateEthSimpleTransfer(ak types.AccountKeeper, k *keeper.Keeper) simtypes.Operation {
return func(
r *rand.Rand, bapp *baseapp.BaseApp, ctx sdk.Context, accs []simtypes.Account, chainID string,
) (simtypes.OperationMsg, []simtypes.FutureOperation, error) {
simAccount, _ := simtypes.RandomAcc(r, accs)
var recipient simtypes.Account
if r.Intn(2) == 1 {
recipient, _ = simtypes.RandomAcc(r, accs)
} else {
recipient = simtypes.RandomAccounts(r, 1)[0]
}
from := common.BytesToAddress(simAccount.Address)
to := common.BytesToAddress(recipient.Address)
simulateContext := &simulateContext{ctx, bapp, r, k}
return SimulateEthTx(simulateContext, &from, &to, nil, (*hexutil.Bytes)(&[]byte{}), simAccount.PrivKey, nil)
}
}
// SimulateEthCreateContract simulate create an ERC20 contract.
// It makes operationSimulateEthCallContract the future operations of SimulateEthCreateContract to ensure valid contract call.
func SimulateEthCreateContract(ak types.AccountKeeper, k *keeper.Keeper) simtypes.Operation {
return func(
r *rand.Rand, bapp *baseapp.BaseApp, ctx sdk.Context, accs []simtypes.Account, chainID string,
) (simtypes.OperationMsg, []simtypes.FutureOperation, error) {
simAccount, _ := simtypes.RandomAcc(r, accs)
from := common.BytesToAddress(simAccount.Address)
nonce := k.GetNonce(ctx, from)
ctorArgs, err := types.ERC20Contract.ABI.Pack("", from, sdk.NewIntWithDecimal(1000, 18).BigInt())
if err != nil {
return simtypes.NoOpMsg(types.ModuleName, types.TypeMsgEthereumTx, "can not pack owner and supply"), nil, err
}
data := types.ERC20Contract.Bin
data = append(data, ctorArgs...)
simulateContext := &simulateContext{ctx, bapp, r, k}
fops := make([]simtypes.FutureOperation, 1)
whenCall := ctx.BlockHeader().Time.Add(time.Duration(r.Intn(maxWaitSeconds)+1) * time.Second)
contractAddr := crypto.CreateAddress(from, nonce)
var tokenReceipient simtypes.Account
if r.Intn(2) == 1 {
tokenReceipient, _ = simtypes.RandomAcc(r, accs)
} else {
tokenReceipient = simtypes.RandomAccounts(r, 1)[0]
}
receipientAddr := common.BytesToAddress(tokenReceipient.Address)
fops[0] = simtypes.FutureOperation{
BlockTime: whenCall,
Op: operationSimulateEthCallContract(k, &contractAddr, &receipientAddr, nil),
}
return SimulateEthTx(simulateContext, &from, nil, nil, (*hexutil.Bytes)(&data), simAccount.PrivKey, fops)
}
}
// operationSimulateEthCallContract simulate calling an contract.
// It is always calling an ERC20 contract.
func operationSimulateEthCallContract(k *keeper.Keeper, contractAddr, to *common.Address, amount *big.Int) simtypes.Operation {
return func(
r *rand.Rand, bapp *baseapp.BaseApp, ctx sdk.Context, accs []simtypes.Account, chainID string,
) (simtypes.OperationMsg, []simtypes.FutureOperation, error) {
simAccount, _ := simtypes.RandomAcc(r, accs)
from := common.BytesToAddress(simAccount.Address)
ctorArgs, err := types.ERC20Contract.ABI.Pack("transfer", to, amount)
if err != nil {
return simtypes.NoOpMsg(types.ModuleName, types.TypeMsgEthereumTx, "can not pack method and args"), nil, err
}
data := types.ERC20Contract.Bin
data = append(data, ctorArgs...)
simulateContext := &simulateContext{ctx, bapp, r, k}
return SimulateEthTx(simulateContext, &from, contractAddr, nil, (*hexutil.Bytes)(&data), simAccount.PrivKey, nil)
}
}
// SimulateEthTx creates valid ethereum tx and pack it as cosmos tx, and deliver it.
func SimulateEthTx(
ctx *simulateContext, from, to *common.Address, amount *big.Int, data *hexutil.Bytes, prv cryptotypes.PrivKey, fops []simtypes.FutureOperation,
) (simtypes.OperationMsg, []simtypes.FutureOperation, error) {
ethTx, err := CreateRandomValidEthTx(ctx, from, nil, nil, data)
if err == ErrNoEnoughBalance {
return simtypes.NoOpMsg(types.ModuleName, types.TypeMsgEthereumTx, "no enough balance"), nil, nil
}
if err != nil {
return simtypes.NoOpMsg(types.ModuleName, types.TypeMsgEthereumTx, "can not create valid eth tx"), nil, err
}
txConfig := encoding.MakeConfig(module.NewBasicManager()).TxConfig
txBuilder := txConfig.NewTxBuilder()
signedTx, err := GetSignedTx(ctx, txBuilder, ethTx, prv)
if err != nil {
return simtypes.NoOpMsg(types.ModuleName, types.TypeMsgEthereumTx, "can not sign ethereum tx"), nil, err
}
_, _, err = ctx.bapp.Deliver(txConfig.TxEncoder(), signedTx)
if err != nil {
return simtypes.NoOpMsg(types.ModuleName, types.TypeMsgEthereumTx, "failed to deliver tx"), nil, err
}
return simtypes.OperationMsg{}, fops, nil
}
// CreateRandomValidEthTx create the ethereum tx with valid random values
func CreateRandomValidEthTx(ctx *simulateContext, from, to *common.Address, amount *big.Int, data *hexutil.Bytes) (ethTx *types.MsgEthereumTx, err error) {
gasCap := ctx.rand.Uint64()
estimateGas, err := EstimateGas(ctx, from, to, data, gasCap)
if err != nil {
return nil, err
}
// we suppose that gasLimit should be larger than estimateGas to ensure tx validity
gasLimit := estimateGas + uint64(ctx.rand.Intn(int(sdktx.MaxGasWanted-estimateGas)))
ethChainID := ctx.keeper.ChainID()
chainConfig := ctx.keeper.GetParams(ctx.context).ChainConfig.EthereumConfig(ethChainID)
gasPrice := ctx.keeper.GetBaseFee(ctx.context, chainConfig)
gasFeeCap := new(big.Int).Add(gasPrice, big.NewInt(int64(ctx.rand.Int())))
gasTipCap := big.NewInt(int64(ctx.rand.Int()))
nonce := ctx.keeper.GetNonce(ctx.context, *from)
if amount == nil {
amount, err = RandomTransferableAmount(ctx, *from, estimateGas, gasFeeCap)
if err != nil {
return nil, err
}
}
ethTx = types.NewTx(ethChainID, nonce, to, amount, gasLimit, gasPrice, gasFeeCap, gasTipCap, *data, nil)
ethTx.From = from.String()
return ethTx, nil
}
// EstimateGas estimates the gas used by quering the keeper.
func EstimateGas(ctx *simulateContext, from, to *common.Address, data *hexutil.Bytes, gasCap uint64) (gas uint64, err error) {
args, err := json.Marshal(&types.TransactionArgs{To: to, From: from, Data: data})
if err != nil {
return 0, err
}
res, err := ctx.keeper.EstimateGas(sdk.WrapSDKContext(ctx.context), &types.EthCallRequest{
Args: args,
GasCap: gasCap,
})
if err != nil {
return 0, err
}
return res.Gas, nil
}
// RandomTransferableAmount generates a random valid transferable amount.
// Transferable amount is between the range [0, spendable), spendable = balance - gasFeeCap * GasLimit.
func RandomTransferableAmount(ctx *simulateContext, address common.Address, estimateGas uint64, gasFeeCap *big.Int) (amount *big.Int, err error) {
balance := ctx.keeper.GetBalance(ctx.context, address)
feeLimit := new(big.Int).Mul(gasFeeCap, big.NewInt(int64(estimateGas)))
if (feeLimit.Cmp(balance)) > 0 {
return nil, ErrNoEnoughBalance
}
spendable := new(big.Int).Sub(balance, feeLimit)
if spendable.Cmp(big.NewInt(0)) == 0 {
amount = new(big.Int).Set(spendable)
return amount, nil
}
simAmount, err := simtypes.RandPositiveInt(ctx.rand, sdk.NewIntFromBigInt(spendable))
if err != nil {
return nil, err
}
amount = simAmount.BigInt()
return amount, nil
}
// GetSignedTx sign the ethereum tx and packs it as a signing.Tx .
func GetSignedTx(ctx *simulateContext, txBuilder client.TxBuilder, msg *types.MsgEthereumTx, prv cryptotypes.PrivKey) (signedTx signing.Tx, err error) {
builder, ok := txBuilder.(tx.ExtensionOptionsTxBuilder)
if !ok {
return nil, fmt.Errorf("can not initiate ExtensionOptionsTxBuilder")
}
option, err := codectypes.NewAnyWithValue(&types.ExtensionOptionsEthereumTx{})
if err != nil {
return nil, err
}
builder.SetExtensionOptions(option)
if err := msg.Sign(ethtypes.LatestSignerForChainID(ctx.keeper.ChainID()), tests.NewSigner(prv)); err != nil {
return nil, err
}
if err = builder.SetMsgs(msg); err != nil {
return nil, err
}
txData, err := types.UnpackTxData(msg.Data)
if err != nil {
return nil, err
}
fees := sdk.NewCoins(sdk.NewCoin(ctx.keeper.GetParams(ctx.context).EvmDenom, sdk.NewIntFromBigInt(txData.Fee())))
builder.SetFeeAmount(fees)
builder.SetGasLimit(msg.GetGas())
signedTx = builder.GetTx()
return signedTx, nil
}